Ceramic Component Solutions

(1)

Ro

_HS

/RE

AC

_H

Co

_m

plia

nce

AC Safety Certified

High Voltage SMT

High Capacitance

High Temperature

EMI Filters (X2Y

®

₎

LICC Low ESL

SMPS Stacks

High Voltage Radials

Precision Power Resistors

Power Inductors

Planar Array

Discoidal

CapStrate

®

Custom Solutions

Ceramic

Component Solutions

(2)

2 www.johanson dielectrics.com

The mission of the Johanson Companies is to

translate our customer needs into quality electronic

components, produced in factories that are models

of excellence, supported by innovative service. With

over 30 years of experience, Johanson Dielectrics

provides both standard and custom technology

solu-tions tailored to your specific electronic applicasolu-tions.

Our standard product range includes High Voltage

and AC Safety Capacitors providing solutions for

Lighting, IT and Business Equipment designs. Our

X2Y® Capacitor line provides advanced EMI

fil-tering and IC decoupling solutions and our High

Capacitance Tanceram® products provide the highest

capacitance values in the smallest cases sizes.

Customized solutions in the areas of High

Tem-perature and High AC power ceramic capacitors are

available to customers who require a partnered

tech-nology solution.

Johanson Dielectrics design and manufacturing

operations are located in Sylmar, California and

Zhoaqing, PRC. Our quality minded management

system utilizes continuous improvement programs

focused on increased product reliability,

manufac-turing through-put, and product performance. Our

broad experience, applications support, and

respon-sive service enhance our ability to drive down your

total cost of procurement and speed your time to

market.

Johanson Dielectrics, Inc. reserves the right to make design and price changes without notice. All sales

are subject to the Johanson terms and conditions, including a limited warranty and remedies for

non-conforming goods or defective goods. Download the Johanson terms and conditions from our website at

http://www.johansondielectrics.com/purchasing-terms-and-conditions.html.

H

IGH

F

REQUENCY

C

ERAMIC

S

OLUTIONS

Johanson Technology Inc., Camarillo CA. Products

include High Q Capacitors, Ceramic and

Wire-wound Chip Inductors, and a broad range of LTCC

based RF IPCs such as Antennas, Filters, Baluns,

Couplers, Matched Filter Baluns, etc.

www.johansontechnology.com

(3)

I

NDEX

OF

P

RODUCTS

S

URFACE

M

OUNT

C

ERAMIC

C

APACITORS

Ceramic Capacitor Prototyping Kits

4-5

High Voltage Capacitors 250 - 6,000 VDC

6-7

Safety Capacitors 250 VAC, Y2, Y3, Japan Standard

8-9

EMI - X2Y

®

_{Filter & Decoupling Capacitors}

_10-13

Low Inductance Capacitors

14 Chip Feedthru Filter Capacitors

15 High Temperature - 200°C Capacitors

16-17

High Capacitance Tanceram

®

_Capacitors

_18-19

SMT Multi-layer Ceramic Capacitors 10 - 200 VDC

20-21

L

EADED

C

ERAMIC

C

APACITORS

SMPS Stacked Capacitors, 125°C & 200°C versions

22-23

Mini-SMPS Stacked Capacitors

24-25

BME Mini SMPS Capacitors

26-27

Switch-mode Radial Leaded Capacitors

28-29

High Voltage Radial Leaded Capacitors, 125°C, 200°C, 250°C versions

30-31

P

RECISION

P

OWER

R

ESISTORS

Resistor Wirewound Precision

32-33

Resistor Wirewound Precision SMT

34-35

Resistor Wirewound High Power Rating

36-39

Resistor Wirewound Chasis Mount

40-42

Resistor Thin Film Precision

43-46

Resistor Thin Film Current Sense

47-49

Resistor High Power Low Inductance

50-52

Resistor Thick Film, High Temperature

53-55

Resistor Metal Element Current Sense

56-57

Resistor Power Thin Film

58-60

P

OWER

I

NDUCTORS

Semi-shielded (Coated)

61-68

P

LANAR

C

APACITORS

& C

USTOM

C

ERAMIC

S

OLUTIONS

Planar Array Capacitors

69-70

C

APSTRATE

& C

USTOMER

C

ERAMIC

S

OLUTIONS

CapStrate

®

_{& Customer Ceramic Solutions}

_71-72

P

ART

N

UMBER

, D

IELECTRIC

, P

ACKAGING

S

PECIFICATIONS

Capacitor General Electrical Characteristics and PN breakdown

70 Capacitor Packaging, Power Inductor, Semi-Shielded (Coated) Packaging

73-74

C

ERTIFICATIONS

& C

ORPORATE

R

ESPONSIBILITY

(4)

4 www.johanson dielectrics.com

Johanson may from time-time adjust actual kit contents based on design demand trends.

Check the Johanson web site for design kit updates and kit content changes.

C

ERAMIC

C

APACITOR

E

NGINEERING

D

ESIGN

K

ITS

Johanson Dielectrics, Inc. offers a variety of multi-layer chip capacitor

sample kits for proto-type design work. Each kit is grouped by type,

size, or voltage and contains a selection of popular values and

tolerances. The chips are individually packaged in labeled plastic

compartments for easy access. The general range of kit contents

is described below. Specific part number details may be found at

www.johansondielectrics.com

0402 Ceramic Chip Capacitor Kit

P/N: S-0402

1400 piece sample assortment of selected values from 1.0pF to 0.22µF

Chip Size

Voltage Rating

Dielectric

Capacitance Range

Qty / Value

Total Qty

0402

50 VDC - 6.3 VDC

NP0, X7R,Y5V

1.0pF to 0.22µF

50 pcs

1400 pcs

0603 Ceramic Chip Capacitor Kit

P/N: S-0603

1400 piece sample assortment of selected values from 1.0pF to 0.22µF

Chip Size

Voltage Rating

Dielectric

Capacitance Range

Qty / Value

Total Qty

0603

50 VDC - 16 VDC

NP0, X7R,Y5V

10pF to 0.22µF

50 pcs

1400 pcs

0805 Ceramic Chip Capacitor Kit

P/N: S-0805

1400 piece sample assortment of selected values from 1.0pF to 0.47µF

Chip Size

Voltage Rating

Dielectric

Capacitance Range

Qty / Value

Total Qty

0805

100 VDC - 16 VDC

NP0, X7R

10pF to 0.47µF

50 pcs

1400 pcs

TANCERAM

®

_{HIGH CAPACITANCE Ceramic Chip Capacitor Kit}

_{P/N: S-TAN-X5R}

500 piece sample assortment of selected values from 1.0µF to 100µF

Chip Size

Voltage Rating

Dielectric

Capacitance Range

Qty / Value

Total Qty

0402, 0603, 0805

1206, 1210

25 VDC - 6.3 VDC

X5R

1.0µF - 100µF

10 - 25 pcs

500 pcs

500 VDC Ceramic Chip Capacitor Kit

P/N: S-500

400 piece sample assortment of selected values from 33pF to 0.1µF

Chip Size

Voltage Rating

Dielectric

Capacitance Range

Qty / Value

Total Qty

0805 - 1812

500 VDC

NP0, X7R

33pF to 0.1µF

10-20 pcs

400 pcs

1000 VDC Ceramic Chip Capacitor Kit

P/N: S-1KV

400 piece sample assortment of selected values from 22pF to 0.1µF

Chip Size

Voltage Rating

Dielectric

Capacitance Range

Qty / Value

Total Qty

(5)

C

ERAMIC

C

APACITOR

E

NGINEERING

D

ESIGN

K

ITS

2000 VDC Ceramic Chip Capacitor Kit

P/N: S-2KV

300 piece sample assortment of selected values from 22pF to 0.022µF

Chip Size

Voltage Rating

Dielectric

Capacitance Range

Qty / Value

Total Qty

1206 - 2225

2000 VDC

NP0, X7R

22pF to 0.022µF

10-20 pcs

300 pcs

X2/Y3 SAFETY CERTIFIED Ceramic Chip Capacitor Kit

P/N: S-SY3

240 piece sample assortment of selected values from 10pF to 1500 pF

Chip Size

Voltage Rating

Dielectric

Capacitance Range

Qty / Value

Total Qty

1808

3KV DC / 250 AC

NP0, X7R

10pF to 1500 pF

20 pcs

240 pcs

X1/Y2 SAFETY CERTIFIED Ceramic Chip Capacitor Kit

P/N: S-SY2

200 piece sample assortment of selected values from 10pF to 2200 pF

Chip Size

Voltage Rating

Dielectric

Capacitance Range

Qty / Value

Total Qty

1808 - 2220

5KV DC / 250 AC

NP0, X7R

10pF to 2200pF

20 pcs

200 pcs

X2Y

®

_{EMI FILTER Capacitor Kit - 0402 Size}

_{P/N: S-X07CBK}

600 piece sample assortment of selected values from 1.0pF to 0.01µF

Chip Size

Voltage Rating

Dielectric

Capacitance Range

Qty / Value

Total Qty

0402

10 - 50 VDC

NP0, X7R

1.0pF to 0.01µF

50 pcs

600 pcs

X2Y

®

_{EMI FILTER Capacitor Kit - 0603 Size}

_{P/N: S-X14CBK}

700 piece sample assortment of selected values from 1.0pF to 0.01µF

Chip Size

Voltage Rating

Dielectric

Capacitance Range

Qty / Value

Total Qty

0603

50 - 100 VDC

NP0, X7R

1.0pF to 0.01µF

50 pcs

700 pcs

X2Y

®

_{EMI FILTER Capacitor Kit - 0805 Size}

_{P/N: S-X15-EMI}

300 piece sample assortment of selected values from 1.0pF to 0.01µF

Chip Size

Voltage Rating

Dielectric

Capacitance Range

Qty / Value

Total Qty

0805

50 - 100 VDC

NP0, X7R

1.0pF to 0.01µF

20 pcs

300 pcs

X2Y

®

_{POWER BYPASS Capacitor Kit - 0603 Size}

_{P/N: S-X14-PBP}

300 piece sample assortment of selected values from 1.0nF to 1.0µF

Chip Size

Voltage Rating

Dielectric

Capacitance Range

Qty / Value

Total Qty

0603

6.3 - 100 VDC

X7R, X5R

1.0nF to 1.0µF

20 pcs

300 pcs

X2Y

®

_{DC MOTOR FILTER Capacitor Kit}

_{P/N: S-X2Y-MTR}

300 piece sample assortment of selected values from 0.10µF to 0.47µF

Chip Size

Voltage Rating

Dielectric

Capacitance Range

Qty / Value

Total Qty

1206 - 1812

100 VDC

X7R

0.10µF to 0.47µF

30 pcs

300 pcs

Johanson may from time-time adjust actual kit contents based on design demand trends.

Check the Johanson web site for design kit updates and kit content changes.

(6)

6 www.johanson dielectrics.com

CASE SIZE

CAPACITANCE SELECTION

JDI /EIA

INCHES

(MM)

VOLTAGE

RATED

MINIMUM

NP0 DIELECTRIC

MAXIMUM

MINIMUM

X7R DIELECTRIC

MAXIMUM

R15/0805

W

L

T

E/B

.080 ±.010

.050 ±.010

.055 Max.

.020 ±.010

(2.03 ±.25)

(1.27 ±.25)

(1.40)

(0.51±.25)

250 VDC

- - 1000 pF 0.022 µF

500 VDC

10 pF 680 pF 1000 pF 0.010 µF

630 VDC

10 pF 560 pF 1000 pF 6800 pF

1000 VDC

10 pF 390 pF 100 pF 2700 pF

R18/1206

L

W

T

E/B

.125 ±.010

.062 ±.010

.067 Max.

.020 ±.010

(3.18 ±.25)

(1.57 ±.25)

(1.70)

(0.51±.25)

250 VDC

- - 1000 pF 0.068 µF

500 VDC

10 pF 1500 pF 1000 pF 0.033 µF

630 VDC

10 pF 1200 pF 1000 pF 0.027 µF

1000 VDC

10 pF 1000 pF 100 pF 0.010 µF

2000 VDC

10 pF 220 pF 100 pF 4700 pF

3000 VDC

10 pF 82 pF 100 pF 1000 pF

S41/1210

L

W

T

E/B

.125 ±.010

.095 ±.010

.080 Max.

.020 ±.010

(3.18 ±.25)

(2.41 ±.25)

(2.03)

(0.51±.25)

250 VDC

- - 1000 pF 0.150 µF

500 VDC

10 pF 3900 pF 1000 pF 0.068 µF

630 VDC

10 pF 2700 pF 1000 pF 0.047 µF

1000 VDC

10 pF 1800 pF 100 pF 0.015 µF

2000 VDC

10 pF 560 pF 100 pF 4700 pF

3000 VDC

10 pF 220 pF 100 pF 1000 pF

R29/1808

L

W

T

E/B

.185 ±.020

.080 ±.010

.085 Max.

.020 ±.010

(4.70 ±.51)

(2.03 ±.25)

(2.16)

(0.51±.25)

500 VDC

10 pF 4700 pF 1000 pF 0.100 µF

630 VDC

10 pF 3300 pF 1000 pF 0.047 µF

1000 VDC

1.0 pF 2200 pF 100 pF 0.022 µF

2000 VDC

1.0 pF 820 pF 100 pF 0.010 µF

3000 VDC

1.0 pF 470 pF 100 pF 3300 pF

4000 VDC

1.0 pF 180 pF 100 pF 1800 pF

5000 VDC

1.0 pF 75 pF 47 pF 390 pF

6000 VDC

1.0 pF 75 pF 47 pF 150 pF

Available cap. values include these significant retma values and their multiples: 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2

( 1.0 = 1.0, 10, 100, 1000, etc.) Consult factory for non-retma values and sizes or voltages not shown.

H

IGH

V

OLTAGE

S

URFACE

M

OUNT

MLCC

S

250 - 6,000 VDC

These high voltage capacitors feature a special internal electrode

design which reduces voltage concentrations by distributing

voltage gradients throughout the entire capacitor.

This unique design also affords increased capacitance values in

a given case size and voltage rating. The capacitors are designed

and manufactured to the general requirement of EIA198 and

are subjected to a 100% electrical testing making them well

suited for a wide variety of telecommunication, commercial, and

industrial applications.

APPLICATIONS

• Analog & Digital Modems

• LAN/WAN Interface

• Lighting Ballast Circuits

• Voltage Multipliers

• DC-DC Converters

• Back-lighting Inverters

Polyterm

®

_{soft termination option for demanding environments &}

(7)

CASE SIZE

CAPACITANCE SELECTION

JDI /EIA

INCHES

(MM)

_VOLTAGE

RATED

MINIMUM

NP0 DIELECTRIC

MAXIMUM

MINIMUM

X7R DIELECTRIC

MAXIMUM

S43 / 1812

L

W

T

E/B

.177 ±.012

.125 ±.010

.110 Max.

.025 ±.015

(4.50 ±.30)

(3.18 ±.25)

(2.80)

(0.64±.38)

250 VDC

- - 0.010 µF 0.470 uF

500 VDC

100 pF 8200 pF 1000 pF 0.330 uF

630 VDC

100 pF 6800 pF 1000 pF 0.120 µF

1000 VDC

10 pF 5600 pF 1000 pF 0.100 µF

2000 VDC

10 pF 1800 pF 100 pF 0.010 µF

3000 VDC

10 pF 1000 pF 100 pF 4700 pF

4000 VDC

10 pF 390 pF 100 pF 1200 pF

5000 VDC

10 pF 150 pF 100 pF 820 pF

6000 VDC

10 pF 150 pF 10 pF 330 pF

S49 / 1825

L

W

T

E/B

.180 ±.010

.250 ±.010

.140 Max.

.025 ±.015

(4.57 ±.25)

(6.35 ±.25)

(3.56)

(0.64±.38)

500 VDC

100 pF 0.018 µF 0.01 µF 0.390 µF

630 VDC

100 pF 0.015 µF 0.01 µF 0.270 µF

1000 VDC

10 pF 0.012 µF 1000 pF 0.180 µF

2000 VDC

10 pF 5600 pF 100 pF 0.039 µF

3000 VDC

10 pF 2200 pF 100 pF 8200 pF

4000 VDC

10 pF 1200 pF 100 pF 2200 pF

5000 VDC

10 pF 390 pF 100 pF 1500 pF

6000 VDC

10 pF 390 pF 100 pF 820 pF

S47 / 2220

L

W

T

E/B

.225 ±.015

.200 ±.015

.150 Max.

.025 ±.015

(5.72 ±.38)

(5.08 ±.38)

(3.81)

(0.64±.38)

500 VDC

1000 pF 0.018 µF 0.01 µF 0.470 µF

630 VDC

1000 pF 0.018 µF 0.01 µF 0.270 µF

1000 VDC

100 pF 0.015 µF 1000 pF 0.120 µF

2000 VDC

100 pF 5600 pF 1000 pF 0.039 µF

3000 VDC

10 pF 2700 pF 100 pF 0.010 µF

4000 VDC

10 pF 1500 pF 100 pF 2700 pF

5000 VDC

10 pF 470 pF 100 pF 1500 pF

6000 VDC

10 pF 470 pF 100 pF 820 pF

S48 / 2225

L

W

T

E/B

.225 ±.010

.255 ±.015

.160 Max.

.025 ±.015

(5.72 ±.25)

(6.48 ±.38)

(4.06)

(0.64±.38)

500 VDC

1000 pF 0.027 µF 0.01 µF 0.560 µF

630 VDC

1000 pF 0.022 µF 0.01 µF 0.390 µF

1000 VDC

100 pF 0.018 µF 1000 pF 0.180 µF

2000 VDC

100 pF 8200 pF 1000 pF 0.056 µF

3000 VDC

10 pF 3300 pF 100 pF 0.012 µF

4000 VDC

10 pF 1800 pF 100 pF 3300 pF

5000 VDC

10 pF 470 pF 100 pF 2700 pF

6000 VDC

10 pF 470 pF 100 pF 1200 pF

Available cap. values include these significant retma values and their multiples: 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2

( 1.0 = 1.0, 10, 100, 1000, etc.) Consult factory for non-retma values and sizes or voltages not shown.

ELECTRICAL CHARACTERISTICS

Meets the standard NP0 & X7R dielectric specifications listed on page 71

DIELECTRIC WITHSTANDING VOLTAGE

DWV = 1.5 X rated WVDC for ratings 500-999 WVDC,

DWV = 1.2 X rated WVDC for ratings ≥ 1,000 WVDC

NOTE: Capacitors may require a surface coating to prevent external arcing. Solder mask should not be used beneath

capacitors. For more information see JDI Tech Note “Surface Arc Season”

H

IGH

V

OLTAGE

S

URFACE

M

OUNT

MLCC

S

250 - 6,000 VDC

L W

T E/B

HOW TO ORDER HIGH VOLTAGE SURFACE MOUNT

P/N written: 202R18W102KV4E

202 R18

W

102 K

V

4 E

VOLTAGE

SIZE

DIELECTRIC

CAPACITANCE

TOLERANCE

TERMINATION

MARKING

PACKING

501 = 500 V 631 = 630 V 102 = 1000 V 202 = 2000 V 302 = 3000 V 402 = 4000 V 502 = 5000 V 602 = 6000 V R15 = 0805 R18 = 1206 R29 = 1808 S41 = 1210 S43 = 1812 S47 = 2220 S48 = 2225 S49 = 1825 N = NP0

W = X7R 1st two digits are signifi-cant; third digit denotes number of zeros. 102 = 1000 pF 104 = 0.10 µF J = ± 5% K = ± 10% M = ± 20% V = NI Barrier with 100% Sn Plating (Matte) F = Polyterm flexible termination T = SnPb 4 = Unmarked

6 = EIA Code E = Embossed 7” T = Punched 7” No code = bulk

Tape specs. per EIA RS481

(8)

8 www.johanson dielectrics.com

AC S

AFETY

C

APACITORS

Johanson Dielectrics Type SC ceramic chip capacitors are

designed for AC voltage surge and lightning protection in

line-to-ground interface applications in computer networks, modem,

facsimile and other equipment.

Johanson’s safety capacitor offering includes four different case

sizes and NP0 and X7R dielectric materials.

These devices are surface mount ready with barrier terminations

and tape and reel packaging.

Information on capacitor safety ratings and certification details

may be found below.

L W

T E/B

Polyterm

®

_{soft termination}

option for demanding

environments & processes

available on select parts,

please contact the factory.

SAFETY

RATING

VOLTAGE

RATING

WITHSTANDING

VOLTAGE

IMPULSE

VOLTAGE

CASE

SIZE

ORDERING P/N

JOHANSON

X2

250 VAC

1,500 VAC

N/A

1808

302R29______V3E-****-SC

STANDARDS

:

IEC/EN

60384-14:2013, EN 60950 2001 • UL 60950-01

CERTIFICATIONS: TUV Rheinland

R 50227900

• UL File

E212609

X2

250 VAC

1,500 VAC

N/A

1812

302S43______V3E-****-SC

STANDARDS:

IEC/EN 60384-14:2013, EN 60950:2001

CERTIFICATIONS: TUV Rheinland R 50227900

X1/Y2

250 VAC

1,500 VAC

5,000 V

1808

502R29______V3E-****-SC

STANDARDS:

IEC/EN 60384-14:2013

• UL 60950-01 CERTIFICATIONS: TUV Rheinland R 50227900 / UL File

E212609

X1/Y2

250 VAC

1,500 VAC

5,000 V

2211

502R30______V3E-****-SC

STANDARDS:

IEC/EN 60384-14:2013

• UL 60950-01 CERTIFICATIONS: TUV Rheinland R 50227900 • UL File:

E212609

X1/Y2

250 VAC

1,500 VAC

5,000 V

2220

502S47______V3E-****-SC

STANDARDS:

IEC/EN 60384-14:2013

• UL 60950-01 CERTIFICATIONS: TUV Rheinland R 50227900 • UL File:

E212609

X Capacitors are defined as suitable for use in situations where failure of the capacitor would not lead to danger of electric shock.

Y Capacitors are defined as suitable for use in situations where failure of the capacitor could lead to danger of electric shock.

(9)

HOW TO ORDER AC SAFETY CAPACITORS

P/N written: 302R29W102MV3E-

_****

-SC

502 R29

W

102 M

V

3 E

-

_****

-SC

VOLTAGE

SIZE

DIELECTRIC

CAPACITANCE

TOLERANCE

TERMINATION

MARKING

PACKING

TYPE

302 = 250VAC [2500V Impulse] 502 = 250VAC [5000V Impulse] R29=1808 R30=2211 S43=1812 S47=2220 AC2=2220 N = NP0

W = X7R significant; third digit 1st two digits are denotes number of zeros, R = decimal. 102 = 1000 pF 104 = 0.10 µF 5R0 = 5.0pF J = ± 5% K = ± 10% M = ± 20% V = NI Barrier with 100% Sn Plating (Matte) F = Polyterm flexible termination 3 = Required

Safety Mark E = Embossed 7” No code = bulk Tape specs. per EIA RS481 SC = Safety Certified

AC S

AFETY

C

APACITORS

R29 / 1808

X2

L

W

T

E/B

L

W

T

E/B

S43 / 1812

X2

L

W

T

E/B

R29 / 1808

X1/Y2

L

W

T

E/B

S43 / 1812

X1/Y2

L

W

T

E/B

R30 / 2211

X1/Y2

DIELECTRIC

NP0

X7R

S

AFETY

C

ERTIFIED

5 pF 10 pF 12 pF 15 pF 18 pF 22 pF 27 pF 33 pF 47 pF 56 pF 68 pF 100 pF 120 pF 150 pF 180 pF 220 pF 270 pF 330 pF 470 pF 560 pF 680 pF 1000 pF 1200 pF 1500 pF 1800 pF 2200 pF 2700 pF 3300 pF 4700 pF

INCHES

(MM)

.185 ±.015

.080 ±.010

.085 Max.

.020 ±.010

(4.70 ±.38)

(2.03 ±.25)

(2.16)

(0.51±.25)

.175 ±.010

.125 ±.010

.115 Max.

.025 ±.015

(4.45 ±.25)

(3.18 ±.25)

(2.92)

(0.64±.38)

.185 ±.015

.080 ±.015

.085 Max.

.012 ±.015

(4.70 ±.38)

(2.03 ±.38)

(2.16)

(0.30±.38)

.175 ±.010

.125 ±.010

.115 Max.

.025 ±.015

(4.45 ±.25)

(3.18 ±.25)

(2.92)

(0.64±.38)

.225 ±.016

.110 ±.010

.115 Max.

.020 ±.010

5.72 ±.40)

(2.80 ±.25)

(2.92)

(0.51±.25)

.225 ±.015

.200 ±.015

.150 Max.

.025 ±.015

(5.72 ±.38)

(5.08 ±.38)

(3.81)

(0.64±.38)

S47 / 2220

X1/Y2

L

W

T

E/B

(10)

10 www.johanson dielectrics.com

X2Y

®

F

ILTER

& D

ECOUPLING

C

APACITORS

X2Y

®

_{filter capacitors employ a unique, patented low inductance design featuring two balanced capacitors}

that are immune to temperature, voltage and aging performance differences.

These components offer superior decoupling and EMI filtering performance, virtually eliminate parasitics, and

can replace multiple capacitors and inductors saving board space and reducing assembly costs.

ADVANTAGES

• One device for EMI suppression or decoupling

• Replace up to 7 components with one X2Y

• Differential and common mode attenuation

• Matched capacitance line to ground, both lines

• Low inductance due to cancellation effect

APPLICATIONS

• Amplifier Filter & Decoupling

• High Speed Data Filtering

• EMC I/O Filtering

• FPGA / ASIC / µ-P Decoupling

• DDR Memory Decoupling

X2Y® technology patents and registered trademark under license from X2Y ATTENUATORS, LLC

EMI Filtering

(1 Y-Cap.)

_<10pF 10pF 22pF 27pF 33pF 47pF _100pF _220pF _470pF _1000pF _1500pF _2200pF _4700pF _.010µF _.015µF _.022µF _.039µF _.047µF _0.10µF _0.18µF _0.22µF _0.33µF _0.40µF _0.47µF 1.0µF

Power Bypass

(2 Y-Caps.)

<20pF 20pF 44pF 54pF 66pF 94pF 200pF 440pF 940pF _2000pF _3000pF _4400pF _9400pF .020µF .030µF .044µF .078µF .094µF 0.20µF 0.36µF 0.44µF 0.68µF 0.80µF 0.94µF 2.0µF

SIZE

CAP. CODE XRX 100 220 270 330 470 101 221 471 102 152 222 472 103 153 223 393 473 104 184 224 334 404 474 105

0402 (X07)

NP0 50 50 50 50 50 50 50 X7R 50 50 50 50 50 50 16

0603 (X14)

NP0 100 100 100 100 100 50 50 50 X7R 100 100 100 100 100 100 100 100 50 25 25 16 10 10 X5R 16 10 10 10

0805 (X15)

NP0 100 100 100 100 100 100 100 50 X7R 100 100 100 100 100 100 100 100 50 50 50 25 10

1206 (X18

NP0

VOLTAGE

RATINGS

6.3 = 6.3 VDC

10 = 10 VDC

16 = 16 VDC

25 = 25 VDC

50 = 50 VDC

100 = 100 VDC

500 = 500 VDC

100 X7R 100 100 100 100 100 16 16 10

1210 (X41)

X7R 500 100 100 100 25 16

1410 (X44)

X7R 500 100

1812 (X43)

X7R 500 100

Contact factory for part combinations not shown.

Filtering capacitance is specified as Line-to-Ground ( Terminal A or B to G)

Power Bypass capacitance is specified Power-to-Ground (A + B to G)

Rated voltage is from line to ground in Circuit 1, power to ground in Circuit 2 .

HOW TO ORDER X2Y

®

CAPACITORS

P/N written: 101X14W102MV4T

100 X14

W

102 M

V

4 T

VOLTAGE

SIZE

DIELECTRIC

CAPACITANCE

TOLERANCE

TERMINATION

MARKING

PACKING

6R3 = 6.3 V 100 = 10 V 160 = 16 V 250 = 25 V 500 = 50 V 101 = 100 V 501 = 500 V X07 = 0402 X14 = 0603 X15 = 0805 X18 = 1206 X41 = 1210 X44 = 1410 X43 = 1812 N = NP0 W = X7R X = X5R

1st two digits are signifi-cant; third digit denotes number of zeros, R = decimal. 102 = 1000 pF 104 = 0.10 µF 5R6 = 5.6pF M = ± 20% * D = ± 0.50 pF *Values < 10 pF only V = NI Barrier with 100% Tin Plating (Matte)

F = Polyterm flexible termination T = SnPb 4 = Unmarked (Not available) E = Embossed 7” T = Punched 7” No code = bulk Tape specs. per EIA RS481

(11)

Dimensional View

Cross-sectional View

G G A B

Equivalent Circuits

G 1 A G 2 B EB CB L W T EB CB L W T

X2Y

®

F

ILTER

& D

ECOUPLING

C

APACITORS

C

ASE

S

IZE

0402 (X07)

0603 (X14)

0805 (X15)

1206 (X18)

1210 (X41)

1410 (X44)

1812 (X43)

IN

MM

IN

MM

IN

MM

IN

MM

IN

MM

IN

MM

IN

MM

L

0.045 ±

_0.003

1.143 ±

_0.076

0.064 ±

_0.005

1.626 ±

_0.127

0.080 ±

_0.008

2.032 ±

_0.203

_0.010

0.124 ±

3.150 ±

_0.254

0.125 ±

_0.010

3.175 ±

_0.254

0.140 ±

_0.010

3.556 ±

_0.254

0.174 ±

_0.010

4.420 ±

_0.254

W

0.025 ±

_0.003

0.635 ±

_0.076

0.035 ±

_0.005

0.889 ±

_0.127

0.050 ±

_0.008

1.270 ±

_0.203

_0.010

0.063 ±

1.600 ±

_0.254

0.098 ±

_0.010

2.489 ±

_0.254

0.098 ±

_0.010

2.490 ±

_0.254

0.125 ±

_0.010

3.175 ±

_0.254

T

0.020 _max

0.508 _max

0.026 _max

0.660 _max

0.040 _max

1.016 _max

_max

0.050

1.270 _max

0.070 _max

1.778 _max

0.070 _max

1.778 _max

0.090 _max

2.286 _max

EB

0.008 ±

_0.003

0.203 ±

_0.076

0.010 ±

_0.006

0.254 ±

_0.152

0.012 ±

_0.008

0.305 ±

_0.203

_0.010

0.016 ±

0.406 ±

_0.254

0.018 ±

_0.010

0.457 ±

_0.254

0.018 ±

_0.010

0.457 ±

_0.254

0.022 ±

_0.012

0.559 ±

_0.305

CB

0.012 ±

_0.003

0.305 ±

_0.076

0.018 ±

_0.004

0.457 ±

_0.102

0.022 ±

_0.005

0.559 ±

_0.127

_0.005

0.040 ±

1.016 ±

_0.127

0.045 ±

_0.005

1.143 ±

_0.127

0.045 ±

_0.005

1.143 ±

_0.127

0.045 ±

_0.005

1.143 ±

_0.127

ELECTRICAL

CHARACTERISTICS

NP0

X7R

X5R

TEMPERATURE COEFFICIENT:

0±30ppm/°C (-55 to +125°C)

±15% (-55 to +125°C)

±15% (-55 to +85°C)

DIELECTRIC STRENGTH:

Vrated ≤100VDC: DWV = 2.5 X WVDC, 25°C, 50mA max. Vrated = 500VDC: DWV = 1.5 X WVDC,

_{25°C, 50mA max.}

DISSIPATION FACTOR:

0.1% max.

WVDC ≥ 50 VDC: 2.5% max.

WVDC = 25 VDC: 3.5% max.

WVDC = 10-16 VDC: 5.0% max.

WVDC = 6.3 VDC: 10% max.

WVDC ≥ 50 VDC: 5% max.

WVDC ≤ 25 VDC: 10% max.

INSULATION RESISTANCE

(MIN. @ 25°C, WVDC)

C≤ 0.047µF: 1000 ΩF or 100 GΩ, whichever is less

C> 0.047µF: 500 ΩF or 10 GΩ, whichever is less

TEST CONDITIONS:

_{C ≤ 100 pF; 1Mhz ±50kHz; 1.0±0.2 VRMS}C > 100 pF; 1kHz ±50Hz; 1.0±0.2 VRMS

1.0kHz±50Hz @ 1.0±0.2 Vrms

OTHER:

See page 70 for additional dielectric specifications.

EMI Filtering S21

Signal-to-Ground

Power Bypass S21

Power-to-Ground

10.0Ω 1.00Ω 0.10Ω 0.01Ω Appr oximate Impedance (Ω) 10.0Ω 1.00Ω 0.10Ω 0.01Ω Appr oximate Impedance (Ω)

Labeled capacitance values below follow the P/N order code (single Y cap value)

(12)

12 www.johanson dielectrics.com

T

HE

X2Y

®

D

ESIGN

- A B

ALANCED

, L

OW

ESL, “C

APACITOR

C

IRCUIT

”

The X2Y

®

_{capacitor design starts with standard 2 terminal MLC capacitor’s opposing electrode sets, A & B, and adds a third electrode set (G) which}

surround each A & B electrode. The result is a highly vesatile three node capacitive circuit containing two tightly matched, low inductance capacitors

in a compact, four-terminal SMT chip.

A

MPLIFIER

I

NPUT

F

ILTER

E

XAMPLE

In this example, a single Johanson X2Y

®

_{component was used to filter noise at the input of a}

DC instrumentation amplifier. This reduced component count by 3-to-1 and costs by over 70%

vs. conventional filter components that included 1% film Y-capacitors.

Parameter

X2Y

®

10nF

10nF, 2 @ 220 pF

Discrete

Comments

DC offset shift < 0.1 µV < 0.1 µV Referred to input Common mode rejection 91 dB 92 dB

Source: Analog Devices, “A Designer’s Guide to Instrumentation Amplifiers (2nd Edition)” by Charles Kitchin and Lew Counts

EMI F

ILTERING

:

The X2Y

®

_{component contains two shunt or “line-to-ground” Y capacitors. Ultra-low ESL (equivalent}

series inductance) and tightly matched inductance of these capacitors provides unequaled high frequency

Common-Mode noise filtering with low noise mode conversion. X2Y

®

_{components reduce EMI emissions}

far better than unbalanced discrete shunt capacitors or series inductive filters. Differential signal loss is

determined by the cut off frequency of the single line-to-ground (Y) capacitor value of an X2Y

®

_.

X2Y

®

F

ILTER

& D

ECOUPLING

C

APACITORS

P

OWER

B

YPASS

/ D

ECOUPLING

For Power Bypass applications, X2Ys

®

_{two “Y” capacitors are connected in parallel. This doubles the total}

capacitance and reduces their mounted inductance by 80% or 1/5th the mounted inductance of similar sized

MLC capacitors enabling high-performance bypass networks with far fewer components and vias. Low ESL

delivers improved High Frequency performance into the GHz range.

GSM RFI A

TTENUATION

IN

A

UDIO

& A

NALOG

GSM handsets transmit in the 850 and 1850 MHz bands using a TDMA pulse

rate of 217Hz. These signals cause the GSM buzz heard in a wide range of audio

products from headphones to concert hall PA systems or “silent” signal errors

created in medical, industrial process control, and security applications. Testing

was conducted where an 840MHz GSM handset signal was delivered to the

inputs of three different amplifier test circuit configurations shown below whose

outputs were measured on a HF spectrum analyzer.

1) No input filter, 2 discrete MLC 100nF power bypass caps.

2) 2 discrete MLC 1nF input filter, 2 discrete MLC 100nF power bypass caps.

3) A single X2Y 1nF input filter, a single X2Y 100nF power bypass cap.

X2Y configuration provided a nearly flat response above the ambient and up to

10 dB imrpoved rejection than the conventional MLCC configuration.

(13)

X2Y H

IGH

P

ERFORMANCE

P

OWER

B

YPASS

- I

MPROVE

P

ERFORMANCE

, R

EDUCE

S

PACE

& V

IAS

Actual measured performance of two high performance SerDes FPGA designs demonstrate how a 13 component X2Y bypass network

significantly out performs a 38 component MLC network. For more information see http://johansondielectrics.com/pdfs/JDI_X2Y_STXII.pdf

C

OMMON

M

ODE

C

HOKE

R

EPLACEMENT

• Superior High Frequency Emissions Reduction

• Smaller Sizes, Lighter Weight

• No Current Limitation

• Vibration Resistant

• No Saturation Concerns

See our website for a detailed application note with component

test comparisons and circuit emissions measurements.

X2Y

®

F

ILTER

& D

ECOUPLING

C

APACITORS

P

ARALLEL

C

APACITOR

S

OLUTION

A common design practice is to parallel decade capacitance values to

extend the high frequency performance of the filter network. This causes an

unintended and often over-looked effect of anti-resonant peaks in the filter

networks combined impedance. X2Y’s very low mounted inductance allows

designers to use a single, higher value part and completely avoid the

anti-resonance problem. The impedance graph on right shows the combined

mounted impedance of a 1nF, 10nF & 100nF 0402 MLC in parrallel in RED.

The MLC networks anti-resonance peaks are nearly 10 times the desired

impedance. A 100nF and 47nF X2Y are plotted in BLUE and GREEN. (The

total capacitance of X2Y (Circuit 2) is twice the value, or 200nF and 98nF in this

example.) The sigle X2Y is clearly superior to the three paralleled MLCs.

(14)

14 www.johanson dielectrics.com

L

OW

I

NDUCTANCE

C

HIP

C

APACITORS

(LICC)

LICC capacitors are specially designed to exhibit lower inductance by altering

the aspect ratio of the terminations. The smaller current loop length results in

Equivalent Series Inductance (ESL) that is typically 60% lower then standard MLCs

of the same size. This ESL improvement is extremely advantageous in the high

frequency power decoupling of high speed digital MPU, FPGA, DSP, etc..

FEATURES

• Low Inductance

• Surface Mount

• High Series Resonant Frequency

• Small Size

• Sn-Pb and Polyterm® Termination Options

• RoHS Compliant

W

MLC

L

LICC

W

HOW TO ORDER LICC CAPACITORS

P/N written: 101X14W102MV4T

100 B14

X

224 M

V

4 T

VOLTAGE

SIZE

DIELECTRIC

CAPACITANCE

TOLERANCE

TERMINATION

MARKING

PACKING

6R3 = 6.3 V 100 = 10 V 160 = 16 V 250 = 25 V 500 = 50 V B14 = 0306 B15 = 0508 B18 = 0612 W = X7R

X = X5R 1st two digits are signifi-cant; third digit denotes number of zeros 103 = 0.01 µF (10NF) 104 = 0.10 µF M = ± 20% *Values < 10 pF only V = NI Barrier with 100% Tin Plating (Matte)

T = SnPb 4 = Unmarked (Not available) E = Embossed 7” T = Punched 7” No code = bulk Tape specs. per EIA RS481

CASE SIZE

AVAILABLE CAPACITANCE

JDI

EIA

MM

DIELECTRIC

10nF

22nF

47nF

0.10 u

F

0.22 u

F

0.47 u

F

1.00 u

F

2.2 u

F

4.7 u

F

10 u

F

B14

0306 0816

X7R

25V

16V

6.3V

X5R

10V

6.3V

B15

0508 1220

X7R

_X5R

50V

25V

16V

6.3V

_10V

6.3V

_10V

_6.3V

B18

0612 1632

X7R

_X5R

50V

25V

16V

6.3V

_10V

_6.3V

(15)

C

HIP

F

ILTER

/ F

EED

-T

HRU

C

APACITORS

Our Feed-Thru Capacitors provide excellent EMI, I/O & Power Line filtering

exhibiting much lower inductance than standard SMT capacitors which results in

broader frequency response. These are Precious Metal Electrode (PME) products

with higher current ratings than comparable Base Metal Electrode (BME) parts.

FEATURES

APPLICATIONS

• 1 Amp Current Rating

• DC Power Line EMI Filter

• Low Inductance, High SRF

• RF Immunity FIlter

• Surface Mount Non-polarized

• RF Amplifier Gain Filter

• Sn-Pb and Polyterm® Options

HOW TO ORDER CHIP FILTER / FEED-THRU

P/N written: 250F14W103YV4E

250 F14

W

103 Y

V

4 E

VOLTAGE

SIZE

DIELECTRIC

CAPACITANCE

TOLERANCE

TERMINATION

MARKING

PACKING

250 = 25 V 500 = 50 V 101 = 100 V 201 = 200 V F14 = 0603 F15 = 0805 F18 = 1206 N = NP0

W = X7R 1st two digits are signifi-cant; third digit denotes number of zeros. 102 = 1000 pF 103 = 0.01 µF 104 = 0.10 µF K = ± 10% M = ± 20% Y = + 50% -20% V = Ni Barrier w/ 100% Sn Plating T = Ni Barrier w/ 95%Sn/5%Pb Plating 4 = Unmarked

(Not available) E =Embossed 7”T =Punched 7” No code = bulk

CASE SIZE

AVAILABLE CAPACITANCE

JDI

EIA

MM

DIELECTRIC 22pF 47pF 100pF 220pF 470pF 1.0nF 2.2nF 4.7nF 10nF 22nF 47nF 100nF 220nF

F14

0603 1608

NP0

50V

X7R

25V

F15

0805 2012

NP0

_X7R

50V

_50V

F18

1206 3216

NP0

_X7R

100V 100V 100V 100V 100V 100V

_50V

(16)

16 www.johanson dielectrics.com

H

IGH

T

EMPERATURE

S

URFACE

M

OUNT

MLCC

S

200°C

Johanson’s high temperature MLCC series exhibit stable performance

across an extended operating temperature range of -55°C to +200°C.

Both Class I and Class II parts are available with DC voltage ratings of

50,100 and 200V satisfying a wide range of demanding applications.

FEATURES

APPLICATIONS

• Stable 200°C Operation

• Deep Hole Drilling Electronics

• Compact SMD Chip

• High Temperature Modules

• Polyterm® Termination Option

• Industrial Equipment

• Sn-Pb Termination Option

• Automotive • Avionics

MECHANICAL CHARACTERISTICS

RATED

VOLTAGE

MINIMUM

NP0 DIELECTRIC

MAXIMUM

MINIMUM

X7R DIELECTRIC

MAXIMUM

T07/0402

25 VDC

50 VDC

10 pF

270 pF

120 pF

100 pF

4700 pF

1500 pF

100 VDC

10 pF

82 pF

10 pF

390 pF

200 VDC

10 pF

50 pF

10 pF

100 pF

T14/0603

25 VDC

50 VDC

10 pF

820 pF

330 pF

1000 pF

0.022 µF

0.010 µF

100 VDC

10 pF

220 pF

100 pF

2200 pF

200 VDC

10 pF

120 pF

100 pF

560 pF

T15/0805

25 VDC

50 VDC

100 pF

2200 pF

1500 pF

1000 pF

0.100 µF

0.033 µF

100 VDC

100 pF

1000 pF

0.010 µF

200 VDC

10 pF

680 pF

100 pF

2200 pF

Inches

(mm)

.080 ±.010 (2.03 ±.25)

.050 ±.010 (1.27 ±.25)

.055 Max.

(1.40)

.020±.010

(0.51±.25 )

L

W

T

E/B

Inches

(mm)

.040 ±.004 (1.02 ±.10)

.020 ±.004 (0.51 ±.10)

.025 Max.

(0.64)

.008±.004

(.20±.10)

L

W

T

E/B

Inches

(mm)

.063 ±.008 (1.60 ±.20)

.032 ±.008 (0.81 ±.20)

.035 Max.

(0.89)

.010±.005

(.25±.13)

L

W

T

E/B

ELECTRICAL CHARACTERISTICS

X7R Temp. Only

X7R Temp. & Rated Voltage (100%)

NP0 Temp. & Rated Voltage (100%)

NP0

X7R

OPERATING RANGE:

-55 to +200°C -55 to +200°C

TEMPERATURE

COEFFICIENT:

0±30ppm/°C (-55to+125°C) 0±15% (-55to+125°C)

200°C CAP. DROP:

-0.5% max. -45% max.

DISSIPATION FACTOR:

0.001 (0.1%) max. 0.020 (2.0%) max.

AGING RATE:

None <1.0% per decade

INSULATION RESISTANCE:

25°C IR >100GΩ or 1000ΩF (whichever _{200°C IR >1ΩF or 100MΩ is less)}

WITHSTANDING VOLTAGE:

2.5 X WVDC for ratings ≤ 200 VDC _{1.5 X WVDC for ratings 201-500 VDC}

TEST CONDITIONS:

C > 100 pF; 1kHz ±50Hz; 1.0±0.2 VRMS _{C ≤ 100 pF; 1Mhz ±50kHz; 1.0±0.2 VRMS}

(17)

H

IGH

T

EMPERATURE

S

URFACE

M

OUNT

MLCC

S

200°C

L W

T E/B

MECHANICAL CHARACTERISTICS

RATED

VOLTAGE

MINIMUM

NP0 DIELECTRIC

MAXIMUM

MINIMUM

X7R DIELECTRIC

MAXIMUM

T18/1206

25 VDC

50 VDC

100 pF

6800 pF

3300 pF

1000 pF

0.220 µF

0.100 µF

100 VDC

100 pF

2200 pF

1000 pF

0.022 µF

200 VDC

100 pF

1500 pF

1000 pF

5600 pF

T41/1210

25 VDC

50 VDC

1000 pF

0.015 µF

5600 pF

0.047 µF

0.470 µF

0.220 µF

100 VDC

100 pF

4700 pF

0.047 µF

0.056 µF

200 VDC

100 pF

3300 pF

0.047 µF

0.015 µF

T43/1812

25 VDC

50 VDC

1000 pF

0.033 µF

0.012 µF

0.047 µF

1.000 µF

0.470 µF

100 VDC

1000 pF

0.010 µF

0.047 µF

0.180 µF

200 VDC

1000 pF

8200 pF

0.047 µF

T49/1825

25 VDC

50 VDC

1000 pF

0.033 µF

0.027 µF

0.10 µF

2.200 µF

1.000 µF

100 VDC

1000 pF

0.022 µF

0.10 µF

0.560 µF

200 VDC

1000 pF

0.018 µF

0.10 µF

0.150 µF

T48/2225

25 VDC

50 VDC

1000 pF

0.100 µF

0.039 µF

0.10 µF

3.300 µF

1.500 µF

100 VDC

1000 pF

0.033 µF

0.10 µF

0.820 µF

200 VDC

1000 pF

0.022 µF

0.10 µF

0.220 µF

Inches

(mm)

.125 ±.010

(3.17 ±.25)

.062 ±.010

(1.57 ±.25)

.067 Max.

(1.70)

.020±.010

(0.51±.25 )

L

W

T

E/B

Inches

(mm)

.125 ±.010

(3.18 ±.25)

.095 ±.010

(2.41 ±.25)

.090 Max.

(2.28)

.020±.010

(0.51±.25 )

L

W

T

E/B

Inches

(mm)

.175 ±.010 (4.45 ±.25)

.125 ±.010 (3.17 ±.25)

.110 Max.

(2.80)

.025±.015

(0.64±.38)

L

W

T

E/B

Inches

(mm)

.180 ±.010 (4.57 ±.25)

.250 ±.010 (6.35 ±.25)

.140 Max.

(3.56)

.025±.015

(0.64±.38)

L

W

T

E/B

Inches

(mm)

.225 ±.010 (5.72 ±.25)

.255 ±.015 (6.48 ±.38)

.160 Max.

(4.06)

.025±.015

(0.64±.38)

L

W

T

E/B

HOW TO ORDER 200°C MLCCS

P/N written: 500T14W103KV4E

500 T14

W

103 K

V

4 E

VOLTAGE

SIZE

DIELECTRIC

CAPACITANCE

TOLERANCE

TERMINATION

MARKING

PACKING

250 = 25 V 500 = 50 V 101 = 100 V 201 = 200 V T07 = 0402 T14 = 0603 T15 = 0805 T18 = 1206 T41 = 1210 T43 = 1812 T49 = 1825 T48 = 2225 N = NP0

W = X7R 1st two digits are signifi-cant; third digit denotes number of zeros. 102 = 1000 pF 103 = 0.01 µF 104 = 0.10 µF

NP0

J = ± 5% K = ± 10%

X7R

K = ± 10% M = ± 20% V = Ni Barrier w/ 100% Sn Plating (150

°

C) T = Ni Barrier w/ 95%Sn/5%Pb Plating (150

°

C) E = Ni Barrier w/ 100% Sn Plating (180

°

C) P = Palladium Silver Pd-Ag

(200

°

C)

4 = Unmarked

(Not available) E = Embossed 7”T = Punched 7” No code = bulk

(18)

18 www.johanson dielectrics.com

T

ANCERAM

®

C

HIP

C

APACITORS

TANCERAM

®

_{chip capacitors can replace tantalum capacitors}

in many applications and offer several key advantages over

traditional tantalums. Because TANCERAM

®

_{capacitors exhibit}

extremely low ESR, equivalent circuit performance can often be

achieved using considerably lower capacitance values. Low

DC leakage reduces current drain, extending the battery life of

portable products. TANCERAM

®

_{high DC breakdown voltage}

ratings offer improved reliability and eliminate large voltage

de-rating common when designing with tantalums.

ADVANTAGES

• Low ESR

• Low DC Leakage

• Higher Surge Voltage

• Non-polarized Devices

• Reduced CHIP Size

• Improved Reliability

• Higher Insulation Resistance • Higher Ripple Current

APPLICATIONS

• Switching Power Supply Smoothing (Input/Output)

• Backlighting Inverters

• DC/DC Converter Smoothing (Input/Output)

• General Digital Circuits

HOW TO ORDER TANCERAM

®

_{Part number written: 100R15X106MV4E}

100 R15

X

106 M

V

4 E

VOLTAGE

SIZE

DIELECTRIC

CAPACITANCE

TOLERANCE

TERMINATION

MARKING

PACKING

6R3 = 6.3 V 100 = 10 V 160 = 16 V 250 = 25 V 500 = 50 V 101 = 100 V See Chart W = X7R

X = X5R significant; third digit 1st two digits are denotes number of zeros. 105 = 1.00 µF 476 = 47.0 µF 107 = 100 µF K = ±10% M = ±20% V = Nickel Barrier with 100% Tin Plating (Matte) T = SnPb* (*available on select parts)

4 = Unmarked Code Type Reel E Plastic 7” T Paper 7” Tape specifications conform to EIA RS481

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CASE SIZE

CAPACITANCE SELECTION

EIA / JDI

INCHES

(mm)

VDC

1.0 µF

2.2 µF

3.3 µF

4.7 µF

10 µF

22 µF

47 µF

100 µF

0402

R07

L

W

T

EB

.040 ±.004

.020 ±.004

.025 Max.

.008 ±.004

(1.02 ±.10)

(0.51 ±.10)

(0.64)

(0.20±.10)

16

10

6.3 0603

R14

L

W

T

EB

.063 ±.008

.032 ±.008

.035 Max.

.010±.005

(1.60 ±.20)

(0.81 ±.20)

(0.89)

(.25±.13)

25

16

10

6.3 0805

R15

L

W

T

EB

.080 ±.010

.050 ±.010

.060 Max.

.020±.010

(2.03 ±.25)

(1.27 ±.25)

(1.52)

(0.51±.25 )

50

25

16

10

6.3 1206

R18

L

W

T

EB

.125 ±.013

.062 ±.010

.070 Max.

.020 +.015-0.01

(3.17 ±.35)

(1.57 ±.25)

(1.78)

(0.51+.38-.25)

100

50

35

25

16

10

6.3 1210

S41

L

W

T

EB

.126 ±.016

.098 ±.012

.110 Max.

.020 +.015-.010

(3.20 ±.40)

(2.50 ±.30)

(2.8)

(0.51+.38-.25)

100

50

35

25

16

10

6.3 1812

S43

L

W

T

EB

.177 ±.016

.126 ±.015

.140 Max.

.035 ±.020

(4.50 ±.40)

(3.20 ±.38)

(3.55)

(0.89 ±0.51)

100

50

25

16

10

6.3 W

X

W

X

W

X

W

X

W

X

W

X

W

X

W

X

ELECTRICAL CHARACTERISTICS

DIELECTRIC:

X7R

X5R

TEMPERATURE COEFFICIENT:

±15% (-55 to +125°C)

±15% (-55 to +85°C)

DISSIPATION FACTOR:

_{For ≤ 35 VDC: 10% max.}

For ≥ 50 VDC: 5% max.

_{For ≤ 35 VDC: 10% max.}

For ≥ 50 VDC: 5% max.

INSULATION RESISTANCE (MIN. @ 25°C, WVDC)

100 ΩF or 10 GΩ, whichever is less

DIELECTRIC STRENGTH:

2.5 X WVDC, 25°C, 50mA max.

TEST CONDITIONS:

_{Capacitance values > 10 µF: 120Hz±10Hz @ 0.5V±0.1 Vrms}

Capacitance values ≤ 10 µF: 1.0kHz±50Hz @ 1.0±0.2 Vrms

OTHER:

See page 70 for additional dielectric specifications.

T

ANCERAM

®

C

HIP

C

APACITORS

T W L E/B

DIELECTRIC

W (X7R)

X (X5R)

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20 www.johanson dielectrics.com

CASE SIZE

Voltage

AVAILABLE CAPACITANCE CODE

JDI

Inches

(mm)

_0R5

_XRX

₁₀₀

₁₂₀

₁₅₀

₁₈₀

₂₂₀

₂₇₀

₃₃₀

₃₉₀

₄₇₀

₅₆₀

₆₈₀

₈₂₀

₁₀₁

₁₂₁

₁₅₁

₁₈₁

₂₂₁

₂₇₁

₃₃₁

₃₉₁

₄₇₁

₅₆₁

₆₈₁

₈₂₁

₁₀₂

R05

L

W

T

EB

0201

.024 ±.001

.012 ±.001

.006 ±.002

(0603)

(0.60 ±.03)

(0.30 ±.03)

(0.15±.05)

25V

16V

10V

R07

L

W

T

EB

0402

.040 ±.004

.020 ±.004

.025 Max.

.008 ±.004

(1005)

(1.02 ±.10)

(0.51 ±.10)

(0.64)

(0.20±.10)

50V

25V

16V

10V

R14

L

W

T

EB

0603

.063 ±.008

.032 ±.008

.035 Max.

.010±.005

(1608)

(1.60 ±.20)

(0.81 ±.20)

(0.89)

(.25±.13)

200V

100V

50V

25V

16V

R15

L

W

T

EB

0805

.080 ±.010

.050 ±.010

.050 Max.

.020±.010

(2012)

(2.03 ±.25)

(1.27 ±.25)

(1.27)

(0.51±.25 )

200V

100V

50V

25V

16V

R18

L

W

T

EB

1206

.125 ±.010

.062 ±.010

.050 Max.

.020 ±.010

(3216)

(3.17 ±.25)

(1.57 ±.25)

(1.27)

(0.51 ±.25)

200V

100V

50V

25V

S41

L

W

T

EB

1210

.125 ±.010

.095 ±.010

.065 Max.

.020 ±.010

(3224)

(3.18 ±.25)

(2.41 ±.25)

(1.65)

(0.51 ±.25)

200V

100V

NP0

50V

L W T E/B

X7R

25V

X5R

16V

S43

L

W

T

EB

1812

.175 ±.010

.125 ±.010

.085 Max.

.025 ±.015

(4532)

(4.45 ±.25)

(3.17 ±.25)

(2.16)

(0.64 ±.38)

200V

100V

50V

25V

0R5

XRX

100

120

150

180

220

270

330

390

470

560

680

820

101

121

151

181

221

271

331

391

471

561

681

821

102 S

URFACE

M

OUNT

MLCC

S

10 - 200 VDC

HOW TO ORDER - SURFACE MOUNT MLCC

Part number written: 100R07W104KV4E

100 R 07

W

104 K

V

4 E

VOLTAGE

SERIES/SIZE

DIELECTRIC

CAPACITANCE

TOLERANCE

TERMINATION

MARKING

PACKING

100 = 10 V DC 160 = 16 V DC 250 = 25 V DC 500 = 50 V DC 101 = 100 V DC 201 = 200 V DC R05 = 0201 R07 = 0402 R14 = 0603 R15 = 0805 R18 = 1206 S41 = 1210 S43 = 1812 N = NP0 W = X7R X = X5R

1st two digits are significant; third digit denotes number of zeros, R = decimal. 5R6 = 5.6 pF 100 = 10 pF 102 = 1,000 pF 474 = 0.47 µF * B = ± 0.10 pF * C = ± 0.25 pF * D = ± 0.50 pF * F = ± 1 % * G = ± 2% * J = ± 5% * K = ± 10% * M = ± 20% *Values < 10 pF only V = Nickel Barrier with 100% Tin Plating (Matte) T = SnPb 3 = Special 4 = Unmarked 6 = EIA Code* *Not available on sizes ≤ 0402 E = Embossed 7” T = Punched 7” U = Embossed 13” R = Punched 13” No code = bulk Tape specifications on page 48. Not all tape styles are avail-able on all parts.

(21)

AVAILABLE CAPACITANCE CODE

Voltage

CASE

SIZE

122

152

182

222

272

332

392

472

562

822

103

123

153

183

223

273

333

473

563

683

823

104

224

334

474

105

225

335

475

106

476

107 0201

R05

NP0

25V

X7R

16V

X5R

10V

See Tanceram High

Capacitance Series

for values ≥ 1.0µF

50V

0402

R07

25V

16V

10V

200V

0603

R14

100V

50V

25V

16V

200V

0805

R15

100V

50V

25V

16V

200V

1206

R18

100V

50V

25V

200V

1210

S41

100V

50V

25V

16V

200V

1812

S43

100V

50V

25V

122

152

182

222

272

332

392

472

562

822

103

123

153

183

223

273

333

473

563

683

823

104

224

334

474

105

225

335

475

106

476

107 S

URFACE

M

OUNT

MLCC

S

10 - 200 VDC

ELECTRICAL CHARACTERISTICS

(22)

22 www.johanson dielectrics.com

CASE SIZE

E C D B A .250" MIN .100" MAX .025" MIN .100" TYP .055" ± .010 .020" ± .002 F .050" min .010" ± .002 .070" ± .010 .050" min

STRAIGHT LEAD

L-LEAD

J-LEAD

E C D B A .250" MIN .100" MAX .025" MIN .100" TYP .055" ± .010 .020" ± .002 F .050" min .010" ± .002 .070" ± .010 .050" min

S

TACKED

SMPS C

ERAMIC

C

APACITORS

Stacked Switch-Mode ceramic capacitors feature large

capacitance values and exhibit low ESR (equivalent series

resistance) and low ESL (equivalent series inductance) making

them well suited for high power and high frequency applications

where tantalum or aluminum electrolytic capacitors may not

be suitable. The P-Series feature mechanical and pin-out

configurations per DSCC 87106 and 88011 drawings while the

E-Series feature mechanical and pin-out configurations more

common in European design applications.

KEY FEATURES

• P-Series Approved to DSCC Drawings 87106 & 88011

MIL-PRF-49470

• New T-Series 200°C for downhole tools and aircraft engine

control applications.

• E-Series Common European Lead Styles available to

MIL-PRF-49470 requirements.

• NP0 & X7R Dielectrics, 50 to 500 VDC Ratings

• Low ESR / Low ESL, Ideal for SMPS Filtering Applications

• Custom Sizes, Voltages, and Values Available

HOW TO ORDER STACKED SMPS

Part number written: 201P03W275KJ4H

201 P03

W

275 K

J

4 H

VOLTAGE

SIZE

DIELECTRIC

CAPACITANCE

TOLERANCE

TERMINATION

MARKING

PACKING

500 = 50 V 101 = 100 V 201 = 200 V 501 = 500 V See Chart N = NP0 B = BX W = X7R

1st two digits are significant; third digit

denotes number of zeros. 101 = 100 pF 102 = 1000 pF 103 = 0.01 µF 105 = 1.00 µF J = ±5% K= ±10% L = ±15% M = ±20% N = ±30% Z = +80% -20% P = +100% -0% J = “J” Leads (formed in) K = “J” Leads with reduced height of .045” ±.010” L = “L” Leads (formed out) M = “L” Leads with reduced height of .045” ±.010” N = Straight Lead 4 = Standard

3 = Specified T = Tape and Reel H = High Reliability testing per customer

requirements S = Special Part